You should've included one example that actually shows the utility of the method. In all examples one can figure out the form of the particular solution just by looking at it. I'm sure the method can be really helpful but in those examples it seemed pretty pointless imo.
Thank you so much Sirr! Very clear, detailed, and helpful! I have completed my preparation for my final exam few days earlier just because of this video.
The annihilator is the differential operator that results in a value of zero when applied to the function. For 4x, the first derivative would be 4 and the second derivative would be zero. So, the second derivative (D^2) is the annihilator of 4x.
Very clear, detailed, and helpful! Thank you for posting this!
Thank you so much this lecture help me a lot
earned a subscriber thank you very very much
helped a lot
You should've included one example that actually shows the utility of the method. In all examples one can figure out the form of the particular solution just by looking at it. I'm sure the method can be really helpful but in those examples it seemed pretty pointless imo.
thank you sir
thank youuuuu
Good lecturw
GayStank69
Thank you so much Sirr! Very clear, detailed, and helpful! I have completed my preparation for my final exam few days earlier just because of this video.
🐍 🐍
why the annihilator of 4x is D² please someone explain
The annihilator is the differential operator that results in a value of zero when applied to the function. For 4x, the first derivative would be 4 and the second derivative would be zero. So, the second derivative (D^2) is the annihilator of 4x.
why is this guy not as big as he should be
lol